/*
 Highcharts JS v4.0.4 (2014-09-02)

 (c) 2009-2014 Torstein Honsi

 License: www.highcharts.com/license
 */
(function (l, C) {
    function K(a, b, c) {
        this.init.call(this, a, b, c)
    }

    var P = l.arrayMin, Q = l.arrayMax, s = l.each, F = l.extend, q = l.merge, R = l.map, o = l.pick, x = l.pInt, p = l.getOptions().plotOptions, g = l.seriesTypes, v = l.extendClass, L = l.splat, r = l.wrap, M = l.Axis, y = l.Tick, H = l.Point, S = l.Pointer, T = l.CenteredSeriesMixin, z = l.TrackerMixin, t = l.Series, w = Math, D = w.round, A = w.floor, N = w.max, U = l.Color, u = function () {
    };
    F(K.prototype, {init: function (a, b, c) {
        var d = this, e = d.defaultOptions;
        d.chart = b;
        if (b.angular)e.background = {};
        d.options = a = q(e, a);
        (a = a.background) && s([].concat(L(a)).reverse(), function (a) {
            var b = a.backgroundColor, a = q(d.defaultBackgroundOptions, a);
            if (b)a.backgroundColor = b;
            a.color = a.backgroundColor;
            c.options.plotBands.unshift(a)
        })
    }, defaultOptions: {center: ["50%", "50%"], size: "85%", startAngle: 0}, defaultBackgroundOptions: {shape: "circle", borderWidth: 1, borderColor: "silver", backgroundColor: {linearGradient: {x1: 0, y1: 0, x2: 0, y2: 1}, stops: [
        [0, "#FFF"],
        [1, "#DDD"]
    ]}, from: -Number.MAX_VALUE, innerRadius: 0, to: Number.MAX_VALUE, outerRadius: "105%"}});
    var G = M.prototype, y = y.prototype, V = {getOffset: u, redraw: function () {
        this.isDirty = !1
    }, render: function () {
        this.isDirty = !1
    }, setScale: u, setCategories: u, setTitle: u}, O = {isRadial: !0, defaultRadialGaugeOptions: {labels: {align: "center", x: 0, y: null}, minorGridLineWidth: 0, minorTickInterval: "auto", minorTickLength: 10, minorTickPosition: "inside", minorTickWidth: 1, tickLength: 10, tickPosition: "inside", tickWidth: 2, title: {rotation: 0}, zIndex: 2}, defaultRadialXOptions: {gridLineWidth: 1, labels: {align: null, distance: 15, x: 0, y: null},
        maxPadding: 0, minPadding: 0, showLastLabel: !1, tickLength: 0}, defaultRadialYOptions: {gridLineInterpolation: "circle", labels: {align: "right", x: -3, y: -2}, showLastLabel: !1, title: {x: 4, text: null, rotation: 90}}, setOptions: function (a) {
        a = this.options = q(this.defaultOptions, this.defaultRadialOptions, a);
        if (!a.plotBands)a.plotBands = []
    }, getOffset: function () {
        G.getOffset.call(this);
        this.chart.axisOffset[this.side] = 0;
        this.center = this.pane.center = T.getCenter.call(this.pane)
    }, getLinePath: function (a, b) {
        var c = this.center, b = o(b,
            c[2] / 2 - this.offset);
        return this.chart.renderer.symbols.arc(this.left + c[0], this.top + c[1], b, b, {start: this.startAngleRad, end: this.endAngleRad, open: !0, innerR: 0})
    }, setAxisTranslation: function () {
        G.setAxisTranslation.call(this);
        if (this.center)this.transA = this.isCircular ? (this.endAngleRad - this.startAngleRad) / (this.max - this.min || 1) : this.center[2] / 2 / (this.max - this.min || 1), this.minPixelPadding = this.isXAxis ? this.transA * this.minPointOffset : 0
    }, beforeSetTickPositions: function () {
        this.autoConnect && (this.max += this.categories &&
            1 || this.pointRange || this.closestPointRange || 0)
    }, setAxisSize: function () {
        G.setAxisSize.call(this);
        if (this.isRadial) {
            this.center = this.pane.center = l.CenteredSeriesMixin.getCenter.call(this.pane);
            if (this.isCircular)this.sector = this.endAngleRad - this.startAngleRad;
            this.len = this.width = this.height = this.center[2] * o(this.sector, 1) / 2
        }
    }, getPosition: function (a, b) {
        return this.postTranslate(this.isCircular ? this.translate(a) : 0, o(this.isCircular ? b : this.translate(a), this.center[2] / 2) - this.offset)
    }, postTranslate: function (a, b) {
        var c = this.chart, d = this.center, a = this.startAngleRad + a;
        return{x: c.plotLeft + d[0] + Math.cos(a) * b, y: c.plotTop + d[1] + Math.sin(a) * b}
    }, getPlotBandPath: function (a, b, c) {
        var d = this.center, e = this.startAngleRad, f = d[2] / 2, h = [o(c.outerRadius, "100%"), c.innerRadius, o(c.thickness, 10)], j = /%$/, k, m = this.isCircular;
        this.options.gridLineInterpolation === "polygon" ? d = this.getPlotLinePath(a).concat(this.getPlotLinePath(b, !0)) : (m || (h[0] = this.translate(a), h[1] = this.translate(b)), h = R(h, function (a) {
            j.test(a) && (a = x(a, 10) * f / 100);
            return a
        }), c.shape === "circle" || !m ? (a = -Math.PI / 2, b = Math.PI * 1.5, k = !0) : (a = e + this.translate(a), b = e + this.translate(b)), d = this.chart.renderer.symbols.arc(this.left + d[0], this.top + d[1], h[0], h[0], {start: a, end: b, innerR: o(h[1], h[0] - h[2]), open: k}));
        return d
    }, getPlotLinePath: function (a, b) {
        var c = this, d = c.center, e = c.chart, f = c.getPosition(a), h, j, k;
        c.isCircular ? k = ["M", d[0] + e.plotLeft, d[1] + e.plotTop, "L", f.x, f.y] : c.options.gridLineInterpolation === "circle" ? (a = c.translate(a)) && (k = c.getLinePath(0, a)) : (s(e.xAxis, function (a) {
            a.pane ===
                c.pane && (h = a)
        }), k = [], a = c.translate(a), d = h.tickPositions, h.autoConnect && (d = d.concat([d[0]])), b && (d = [].concat(d).reverse()), s(d, function (f, c) {
            j = h.getPosition(f, a);
            k.push(c ? "L" : "M", j.x, j.y)
        }));
        return k
    }, getTitlePosition: function () {
        var a = this.center, b = this.chart, c = this.options.title;
        return{x: b.plotLeft + a[0] + (c.x || 0), y: b.plotTop + a[1] - {high: 0.5, middle: 0.25, low: 0}[c.align] * a[2] + (c.y || 0)}
    }};
    r(G, "init", function (a, b, c) {
        var i;
        var d = b.angular, e = b.polar, f = c.isX, h = d && f, j, k;
        k = b.options;
        var m = c.pane || 0;
        if (d) {
            if (F(this,
                h ? V : O), j = !f)this.defaultRadialOptions = this.defaultRadialGaugeOptions
        } else if (e)F(this, O), this.defaultRadialOptions = (j = f) ? this.defaultRadialXOptions : q(this.defaultYAxisOptions, this.defaultRadialYOptions);
        a.call(this, b, c);
        if (!h && (d || e)) {
            a = this.options;
            if (!b.panes)b.panes = [];
            this.pane = (i = b.panes[m] = b.panes[m] || new K(L(k.pane)[m], b, this), m = i);
            m = m.options;
            b.inverted = !1;
            k.chart.zoomType = null;
            this.startAngleRad = b = (m.startAngle - 90) * Math.PI / 180;
            this.endAngleRad = k = (o(m.endAngle, m.startAngle + 360) - 90) * Math.PI /
                180;
            this.offset = a.offset || 0;
            if ((this.isCircular = j) && c.max === C && k - b === 2 * Math.PI)this.autoConnect = !0
        }
    });
    r(y, "getPosition", function (a, b, c, d, e) {
        var f = this.axis;
        return f.getPosition ? f.getPosition(c) : a.call(this, b, c, d, e)
    });
    r(y, "getLabelPosition", function (a, b, c, d, e, f, h, j, k) {
        var m = this.axis, i = f.y, n = f.align, g = (m.translate(this.pos) + m.startAngleRad + Math.PI / 2) / Math.PI * 180 % 360;
        m.isRadial ? (a = m.getPosition(this.pos, m.center[2] / 2 + o(f.distance, -25)), f.rotation === "auto" ? d.attr({rotation: g}) : i === null && (i = m.chart.renderer.fontMetrics(d.styles.fontSize).b -
            d.getBBox().height / 2), n === null && (n = m.isCircular ? g > 20 && g < 160 ? "left" : g > 200 && g < 340 ? "right" : "center" : "center", d.attr({align: n})), a.x += f.x, a.y += i) : a = a.call(this, b, c, d, e, f, h, j, k);
        return a
    });
    r(y, "getMarkPath", function (a, b, c, d, e, f, h) {
        var j = this.axis;
        j.isRadial ? (a = j.getPosition(this.pos, j.center[2] / 2 + d), b = ["M", b, c, "L", a.x, a.y]) : b = a.call(this, b, c, d, e, f, h);
        return b
    });
    p.arearange = q(p.area, {lineWidth: 1, marker: null, threshold: null, tooltip: {pointFormat: '<span style="color:{series.color}">●</span> {series.name}: <b>{point.low}</b> - <b>{point.high}</b><br/>'},
        trackByArea: !0, dataLabels: {align: null, verticalAlign: null, xLow: 0, xHigh: 0, yLow: 0, yHigh: 0}, states: {hover: {halo: !1}}});
    g.arearange = v(g.area, {type: "arearange", pointArrayMap: ["low", "high"], toYData: function (a) {
        return[a.low, a.high]
    }, pointValKey: "low", getSegments: function () {
        var a = this;
        s(a.points, function (b) {
            if (!a.options.connectNulls && (b.low === null || b.high === null))b.y = null; else if (b.low === null && b.high !== null)b.y = b.high
        });
        t.prototype.getSegments.call(this)
    }, translate: function () {
        var a = this.yAxis;
        g.area.prototype.translate.apply(this);
        s(this.points, function (b) {
            var c = b.low, d = b.high, e = b.plotY;
            d === null && c === null ? b.y = null : c === null ? (b.plotLow = b.plotY = null, b.plotHigh = a.translate(d, 0, 1, 0, 1)) : d === null ? (b.plotLow = e, b.plotHigh = null) : (b.plotLow = e, b.plotHigh = a.translate(d, 0, 1, 0, 1))
        })
    }, getSegmentPath: function (a) {
        var b, c = [], d = a.length, e = t.prototype.getSegmentPath, f, h;
        h = this.options;
        var j = h.step;
        for (b = HighchartsAdapter.grep(a, function (a) {
            return a.plotLow !== null
        }); d--;)f = a[d], f.plotHigh !== null && c.push({plotX: f.plotX, plotY: f.plotHigh});
        a = e.call(this,
            b);
        if (j)j === !0 && (j = "left"), h.step = {left: "right", center: "center", right: "left"}[j];
        c = e.call(this, c);
        h.step = j;
        h = [].concat(a, c);
        c[0] = "L";
        this.areaPath = this.areaPath.concat(a, c);
        return h
    }, drawDataLabels: function () {
        var a = this.data, b = a.length, c, d = [], e = t.prototype, f = this.options.dataLabels, h = f.align, j, k = this.chart.inverted;
        if (f.enabled || this._hasPointLabels) {
            for (c = b; c--;)if (j = a[c], j.y = j.high, j._plotY = j.plotY, j.plotY = j.plotHigh, d[c] = j.dataLabel, j.dataLabel = j.dataLabelUpper, j.below = !1, k) {
                if (!h)f.align = "left";
                f.x = f.xHigh
            } else f.y = f.yHigh;
            e.drawDataLabels && e.drawDataLabels.apply(this, arguments);
            for (c = b; c--;)if (j = a[c], j.dataLabelUpper = j.dataLabel, j.dataLabel = d[c], j.y = j.low, j.plotY = j._plotY, j.below = !0, k) {
                if (!h)f.align = "right";
                f.x = f.xLow
            } else f.y = f.yLow;
            e.drawDataLabels && e.drawDataLabels.apply(this, arguments)
        }
        f.align = h
    }, alignDataLabel: function () {
        g.column.prototype.alignDataLabel.apply(this, arguments)
    }, getSymbol: u, drawPoints: u});
    p.areasplinerange = q(p.arearange);
    g.areasplinerange = v(g.arearange, {type: "areasplinerange",
        getPointSpline: g.spline.prototype.getPointSpline});
    (function () {
        var a = g.column.prototype;
        p.columnrange = q(p.column, p.arearange, {lineWidth: 1, pointRange: null});
        g.columnrange = v(g.arearange, {type: "columnrange", translate: function () {
            var b = this, c = b.yAxis, d;
            a.translate.apply(b);
            s(b.points, function (a) {
                var f = a.shapeArgs, h = b.options.minPointLength, j;
                a.tooltipPos = null;
                a.plotHigh = d = c.translate(a.high, 0, 1, 0, 1);
                a.plotLow = a.plotY;
                j = d;
                a = a.plotY - d;
                a < h && (h -= a, a += h, j -= h / 2);
                f.height = a;
                f.y = j
            })
        }, trackerGroups: ["group", "dataLabelsGroup"],
            drawGraph: u, pointAttrToOptions: a.pointAttrToOptions, drawPoints: a.drawPoints, drawTracker: a.drawTracker, animate: a.animate, getColumnMetrics: a.getColumnMetrics})
    })();
    p.gauge = q(p.line, {dataLabels: {enabled: !0, defer: !1, y: 15, borderWidth: 1, borderColor: "silver", borderRadius: 3, crop: !1, style: {fontWeight: "bold"}, verticalAlign: "top", zIndex: 2}, dial: {}, pivot: {}, tooltip: {headerFormat: ""}, showInLegend: !1});
    z = {type: "gauge", pointClass: v(H, {setState: function (a) {
        this.state = a
    }}), angular: !0, drawGraph: u, fixedBox: !0, forceDL: !0,
        trackerGroups: ["group", "dataLabelsGroup"], translate: function () {
            var a = this.yAxis, b = this.options, c = a.center;
            this.generatePoints();
            s(this.points, function (d) {
                var e = q(b.dial, d.dial), f = x(o(e.radius, 80)) * c[2] / 200, h = x(o(e.baseLength, 70)) * f / 100, j = x(o(e.rearLength, 10)) * f / 100, k = e.baseWidth || 3, m = e.topWidth || 1, i = b.overshoot, n = a.startAngleRad + a.translate(d.y, null, null, null, !0);
                i && typeof i === "number" ? (i = i / 180 * Math.PI, n = Math.max(a.startAngleRad - i, Math.min(a.endAngleRad + i, n))) : b.wrap === !1 && (n = Math.max(a.startAngleRad,
                    Math.min(a.endAngleRad, n)));
                n = n * 180 / Math.PI;
                d.shapeType = "path";
                d.shapeArgs = {d: e.path || ["M", -j, -k / 2, "L", h, -k / 2, f, -m / 2, f, m / 2, h, k / 2, -j, k / 2, "z"], translateX: c[0], translateY: c[1], rotation: n};
                d.plotX = c[0];
                d.plotY = c[1]
            })
        }, drawPoints: function () {
            var a = this, b = a.yAxis.center, c = a.pivot, d = a.options, e = d.pivot, f = a.chart.renderer;
            s(a.points, function (c) {
                var b = c.graphic, k = c.shapeArgs, e = k.d, i = q(d.dial, c.dial);
                b ? (b.animate(k), k.d = e) : c.graphic = f[c.shapeType](k).attr({stroke: i.borderColor || "none", "stroke-width": i.borderWidth ||
                    0, fill: i.backgroundColor || "black", rotation: k.rotation}).add(a.group)
            });
            c ? c.animate({translateX: b[0], translateY: b[1]}) : a.pivot = f.circle(0, 0, o(e.radius, 5)).attr({"stroke-width": e.borderWidth || 0, stroke: e.borderColor || "silver", fill: e.backgroundColor || "black"}).translate(b[0], b[1]).add(a.group)
        }, animate: function (a) {
            var b = this;
            if (!a)s(b.points, function (a) {
                var d = a.graphic;
                d && (d.attr({rotation: b.yAxis.startAngleRad * 180 / Math.PI}), d.animate({rotation: a.shapeArgs.rotation}, b.options.animation))
            }), b.animate =
                null
        }, render: function () {
            this.group = this.plotGroup("group", "series", this.visible ? "visible" : "hidden", this.options.zIndex, this.chart.seriesGroup);
            t.prototype.render.call(this);
            this.group.clip(this.chart.clipRect)
        }, setData: function (a, b) {
            t.prototype.setData.call(this, a, !1);
            this.processData();
            this.generatePoints();
            o(b, !0) && this.chart.redraw()
        }, drawTracker: z && z.drawTrackerPoint};
    g.gauge = v(g.line, z);
    p.boxplot = q(p.column, {fillColor: "#FFFFFF", lineWidth: 1, medianWidth: 2, states: {hover: {brightness: -0.3}}, threshold: null,
        tooltip: {pointFormat: '<span style="color:{series.color}">●</span> <b> {series.name}</b><br/>Maximum: {point.high}<br/>Upper quartile: {point.q3}<br/>Median: {point.median}<br/>Lower quartile: {point.q1}<br/>Minimum: {point.low}<br/>'}, whiskerLength: "50%", whiskerWidth: 2});
    g.boxplot = v(g.column, {type: "boxplot", pointArrayMap: ["low", "q1", "median", "q3", "high"], toYData: function (a) {
        return[a.low, a.q1, a.median, a.q3, a.high]
    }, pointValKey: "high", pointAttrToOptions: {fill: "fillColor", stroke: "color", "stroke-width": "lineWidth"},
        drawDataLabels: u, translate: function () {
            var a = this.yAxis, b = this.pointArrayMap;
            g.column.prototype.translate.apply(this);
            s(this.points, function (c) {
                s(b, function (b) {
                    c[b] !== null && (c[b + "Plot"] = a.translate(c[b], 0, 1, 0, 1))
                })
            })
        }, drawPoints: function () {
            var a = this, b = a.points, c = a.options, d = a.chart.renderer, e, f, h, j, k, m, i, n, g, l, p, I, r, q, J, u, v, t, w, x, z, y, E = a.doQuartiles !== !1, B = parseInt(a.options.whiskerLength, 10) / 100;
            s(b, function (b) {
                g = b.graphic;
                z = b.shapeArgs;
                p = {};
                q = {};
                u = {};
                y = b.color || a.color;
                if (b.plotY !== C)if (e = b.pointAttr[b.selected ?
                    "selected" : ""], v = z.width, t = A(z.x), w = t + v, x = D(v / 2), f = A(E ? b.q1Plot : b.lowPlot), h = A(E ? b.q3Plot : b.lowPlot), j = A(b.highPlot), k = A(b.lowPlot), p.stroke = b.stemColor || c.stemColor || y, p["stroke-width"] = o(b.stemWidth, c.stemWidth, c.lineWidth), p.dashstyle = b.stemDashStyle || c.stemDashStyle, q.stroke = b.whiskerColor || c.whiskerColor || y, q["stroke-width"] = o(b.whiskerWidth, c.whiskerWidth, c.lineWidth), u.stroke = b.medianColor || c.medianColor || y, u["stroke-width"] = o(b.medianWidth, c.medianWidth, c.lineWidth), u["stroke-linecap"] = "round",
                    i = p["stroke-width"] % 2 / 2, n = t + x + i, l = ["M", n, h, "L", n, j, "M", n, f, "L", n, k], E && (i = e["stroke-width"] % 2 / 2, n = A(n) + i, f = A(f) + i, h = A(h) + i, t += i, w += i, I = ["M", t, h, "L", t, f, "L", w, f, "L", w, h, "L", t, h, "z"]), B && (i = q["stroke-width"] % 2 / 2, j += i, k += i, r = ["M", n - x * B, j, "L", n + x * B, j, "M", n - x * B, k, "L", n + x * B, k]), i = u["stroke-width"] % 2 / 2, m = D(b.medianPlot) + i, J = ["M", t, m, "L", w, m], g)b.stem.animate({d: l}), B && b.whiskers.animate({d: r}), E && b.box.animate({d: I}), b.medianShape.animate({d: J}); else {
                    b.graphic = g = d.g().add(a.group);
                    b.stem = d.path(l).attr(p).add(g);
                    if (B)b.whiskers = d.path(r).attr(q).add(g);
                    if (E)b.box = d.path(I).attr(e).add(g);
                    b.medianShape = d.path(J).attr(u).add(g)
                }
            })
        }});
    p.errorbar = q(p.boxplot, {color: "#000000", grouping: !1, linkedTo: ":previous", tooltip: {pointFormat: '<span style="color:{series.color}">●</span> {series.name}: <b>{point.low}</b> - <b>{point.high}</b><br/>'}, whiskerWidth: null});
    g.errorbar = v(g.boxplot, {type: "errorbar", pointArrayMap: ["low", "high"], toYData: function (a) {
        return[a.low, a.high]
    }, pointValKey: "high", doQuartiles: !1, drawDataLabels: g.arearange ?
        g.arearange.prototype.drawDataLabels : u, getColumnMetrics: function () {
        return this.linkedParent && this.linkedParent.columnMetrics || g.column.prototype.getColumnMetrics.call(this)
    }});
    p.waterfall = q(p.column, {lineWidth: 1, lineColor: "#333", dashStyle: "dot", borderColor: "#333", states: {hover: {lineWidthPlus: 0}}});
    g.waterfall = v(g.column, {type: "waterfall", upColorProp: "fill", pointArrayMap: ["low", "y"], pointValKey: "y", init: function (a, b) {
        b.stacking = !0;
        g.column.prototype.init.call(this, a, b)
    }, translate: function () {
        var a =
            this.yAxis, b, c, d, e, f, h, j, k, m, i;
        b = this.options.threshold;
        g.column.prototype.translate.apply(this);
        k = m = b;
        d = this.points;
        for (c = 0, b = d.length; c < b; c++) {
            e = d[c];
            f = e.shapeArgs;
            h = this.getStack(c);
            i = h.points[this.index + "," + c];
            if (isNaN(e.y))e.y = this.yData[c];
            j = N(k, k + e.y) + i[0];
            f.y = a.translate(j, 0, 1);
            e.isSum ? (f.y = a.translate(i[1], 0, 1), f.height = a.translate(i[0], 0, 1) - f.y) : e.isIntermediateSum ? (f.y = a.translate(i[1], 0, 1), f.height = a.translate(m, 0, 1) - f.y, m = i[1]) : k += h.total;
            f.height < 0 && (f.y += f.height, f.height *= -1);
            e.plotY =
                f.y = D(f.y) - this.borderWidth % 2 / 2;
            f.height = N(D(f.height), 0.001);
            e.yBottom = f.y + f.height;
            f = e.plotY + (e.negative ? f.height : 0);
            this.chart.inverted ? e.tooltipPos[0] = a.len - f : e.tooltipPos[1] = f
        }
    }, processData: function (a) {
        var b = this.yData, c = this.points, d, e = b.length, f, h, j, k, m, i;
        h = f = j = k = this.options.threshold || 0;
        for (i = 0; i < e; i++)m = b[i], d = c && c[i] ? c[i] : {}, m === "sum" || d.isSum ? b[i] = h : m === "intermediateSum" || d.isIntermediateSum ? b[i] = f : (h += m, f += m), j = Math.min(h, j), k = Math.max(h, k);
        t.prototype.processData.call(this, a);
        this.dataMin =
            j;
        this.dataMax = k
    }, toYData: function (a) {
        if (a.isSum)return a.x === 0 ? null : "sum"; else if (a.isIntermediateSum)return a.x === 0 ? null : "intermediateSum";
        return a.y
    }, getAttribs: function () {
        g.column.prototype.getAttribs.apply(this, arguments);
        var a = this.options, b = a.states, c = a.upColor || this.color, a = l.Color(c).brighten(0.1).get(), d = q(this.pointAttr), e = this.upColorProp;
        d[""][e] = c;
        d.hover[e] = b.hover.upColor || a;
        d.select[e] = b.select.upColor || c;
        s(this.points, function (a) {
            if (a.y > 0 && !a.color)a.pointAttr = d, a.color = c
        })
    }, getGraphPath: function () {
        var a =
            this.data, b = a.length, c = D(this.options.lineWidth + this.borderWidth) % 2 / 2, d = [], e, f, h;
        for (h = 1; h < b; h++)f = a[h].shapeArgs, e = a[h - 1].shapeArgs, f = ["M", e.x + e.width, e.y + c, "L", f.x, e.y + c], a[h - 1].y < 0 && (f[2] += e.height, f[5] += e.height), d = d.concat(f);
        return d
    }, getExtremes: u, getStack: function (a) {
        var b = this.yAxis.stacks, c = this.stackKey;
        this.processedYData[a] < this.options.threshold && (c = "-" + c);
        return b[c][a]
    }, drawGraph: t.prototype.drawGraph});
    p.bubble = q(p.scatter, {dataLabels: {formatter: function () {
        return this.point.z
    }, inside: !0,
        style: {color: "white", textShadow: "0px 0px 3px black"}, verticalAlign: "middle"}, marker: {lineColor: null, lineWidth: 1}, minSize: 8, maxSize: "20%", states: {hover: {halo: {size: 5}}}, tooltip: {pointFormat: "({point.x}, {point.y}), Size: {point.z}"}, turboThreshold: 0, zThreshold: 0});
    z = v(H, {haloPath: function () {
        return H.prototype.haloPath.call(this, this.shapeArgs.r + this.series.options.states.hover.halo.size)
    }});
    g.bubble = v(g.scatter, {type: "bubble", pointClass: z, pointArrayMap: ["y", "z"], parallelArrays: ["x", "y", "z"], trackerGroups: ["group",
        "dataLabelsGroup"], bubblePadding: !0, pointAttrToOptions: {stroke: "lineColor", "stroke-width": "lineWidth", fill: "fillColor"}, applyOpacity: function (a) {
        var b = this.options.marker, c = o(b.fillOpacity, 0.5), a = a || b.fillColor || this.color;
        c !== 1 && (a = U(a).setOpacity(c).get("rgba"));
        return a
    }, convertAttribs: function () {
        var a = t.prototype.convertAttribs.apply(this, arguments);
        a.fill = this.applyOpacity(a.fill);
        return a
    }, getRadii: function (a, b, c, d) {
        var e, f, h, j = this.zData, k = [], m = this.options.sizeBy !== "width";
        for (f = 0, e = j.length; f <
            e; f++)h = b - a, h = h > 0 ? (j[f] - a) / (b - a) : 0.5, m && h >= 0 && (h = Math.sqrt(h)), k.push(w.ceil(c + h * (d - c)) / 2);
        this.radii = k
    }, animate: function (a) {
        var b = this.options.animation;
        if (!a)s(this.points, function (a) {
            var d = a.graphic, a = a.shapeArgs;
            d && a && (d.attr("r", 1), d.animate({r: a.r}, b))
        }), this.animate = null
    }, translate: function () {
        var a, b = this.data, c, d, e = this.radii;
        g.scatter.prototype.translate.call(this);
        for (a = b.length; a--;)c = b[a], d = e ? e[a] : 0, c.negative = c.z < (this.options.zThreshold || 0), d >= this.minPxSize / 2 ? (c.shapeType = "circle",
            c.shapeArgs = {x: c.plotX, y: c.plotY, r: d}, c.dlBox = {x: c.plotX - d, y: c.plotY - d, width: 2 * d, height: 2 * d}) : c.shapeArgs = c.plotY = c.dlBox = C
    }, drawLegendSymbol: function (a, b) {
        var c = x(a.itemStyle.fontSize) / 2;
        b.legendSymbol = this.chart.renderer.circle(c, a.baseline - c, c).attr({zIndex: 3}).add(b.legendGroup);
        b.legendSymbol.isMarker = !0
    }, drawPoints: g.column.prototype.drawPoints, alignDataLabel: g.column.prototype.alignDataLabel});
    M.prototype.beforePadding = function () {
        var a = this, b = this.len, c = this.chart, d = 0, e = b, f = this.isXAxis, h =
            f ? "xData" : "yData", j = this.min, k = {}, m = w.min(c.plotWidth, c.plotHeight), i = Number.MAX_VALUE, n = -Number.MAX_VALUE, g = this.max - j, l = b / g, p = [];
        this.tickPositions && (s(this.series, function (b) {
            var h = b.options;
            if (b.bubblePadding && (b.visible || !c.options.chart.ignoreHiddenSeries))if (a.allowZoomOutside = !0, p.push(b), f)s(["minSize", "maxSize"], function (a) {
                var b = h[a], f = /%$/.test(b), b = x(b);
                k[a] = f ? m * b / 100 : b
            }), b.minPxSize = k.minSize, b = b.zData, b.length && (i = o(h.zMin, w.min(i, w.max(P(b), h.displayNegative === !1 ? h.zThreshold : -Number.MAX_VALUE))),
                n = o(h.zMax, w.max(n, Q(b))))
        }), s(p, function (a) {
            var b = a[h], c = b.length, m;
            f && a.getRadii(i, n, k.minSize, k.maxSize);
            if (g > 0)for (; c--;)typeof b[c] === "number" && (m = a.radii[c], d = Math.min((b[c] - j) * l - m, d), e = Math.max((b[c] - j) * l + m, e))
        }), p.length && g > 0 && o(this.options.min, this.userMin) === C && o(this.options.max, this.userMax) === C && (e -= b, l *= (b + d - e) / b, this.min += d / l, this.max += e / l))
    };
    (function () {
        function a(a, b, c) {
            a.call(this, b, c);
            if (this.chart.polar)this.closeSegment = function (a) {
                var b = this.xAxis.center;
                a.push("L", b[0], b[1])
            },
                this.closedStacks = !0
        }

        function b(a, b) {
            var c = this.chart, d = this.options.animation, e = this.group, i = this.markerGroup, n = this.xAxis.center, g = c.plotLeft, l = c.plotTop;
            if (c.polar) {
                if (c.renderer.isSVG)d === !0 && (d = {}), b ? (c = {translateX: n[0] + g, translateY: n[1] + l, scaleX: 0.001, scaleY: 0.001}, e.attr(c), i && i.attr(c)) : (c = {translateX: g, translateY: l, scaleX: 1, scaleY: 1}, e.animate(c, d), i && i.animate(c, d), this.animate = null)
            } else a.call(this, b)
        }

        var c = t.prototype, d = S.prototype, e;
        c.toXY = function (a) {
            var b, c = this.chart, d = a.plotX;
            b =
                a.plotY;
            a.rectPlotX = d;
            a.rectPlotY = b;
            d = (d / Math.PI * 180 + this.xAxis.pane.options.startAngle) % 360;
            d < 0 && (d += 360);
            a.clientX = d;
            b = this.xAxis.postTranslate(a.plotX, this.yAxis.len - b);
            a.plotX = a.polarPlotX = b.x - c.plotLeft;
            a.plotY = a.polarPlotY = b.y - c.plotTop
        };
        c.orderTooltipPoints = function (a) {
            if (this.chart.polar && (a.sort(function (a, b) {
                return a.clientX - b.clientX
            }), a[0]))a[0].wrappedClientX = a[0].clientX + 360, a.push(a[0])
        };
        g.area && r(g.area.prototype, "init", a);
        g.areaspline && r(g.areaspline.prototype, "init", a);
        g.spline &&
        r(g.spline.prototype, "getPointSpline", function (a, b, c, d) {
            var e, i, n, g, l, p, o;
            if (this.chart.polar) {
                e = c.plotX;
                i = c.plotY;
                a = b[d - 1];
                n = b[d + 1];
                this.connectEnds && (a || (a = b[b.length - 2]), n || (n = b[1]));
                if (a && n)g = a.plotX, l = a.plotY, b = n.plotX, p = n.plotY, g = (1.5 * e + g) / 2.5, l = (1.5 * i + l) / 2.5, n = (1.5 * e + b) / 2.5, o = (1.5 * i + p) / 2.5, b = Math.sqrt(Math.pow(g - e, 2) + Math.pow(l - i, 2)), p = Math.sqrt(Math.pow(n - e, 2) + Math.pow(o - i, 2)), g = Math.atan2(l - i, g - e), l = Math.atan2(o - i, n - e), o = Math.PI / 2 + (g + l) / 2, Math.abs(g - o) > Math.PI / 2 && (o -= Math.PI), g = e + Math.cos(o) *
                    b, l = i + Math.sin(o) * b, n = e + Math.cos(Math.PI + o) * p, o = i + Math.sin(Math.PI + o) * p, c.rightContX = n, c.rightContY = o;
                d ? (c = ["C", a.rightContX || a.plotX, a.rightContY || a.plotY, g || e, l || i, e, i], a.rightContX = a.rightContY = null) : c = ["M", e, i]
            } else c = a.call(this, b, c, d);
            return c
        });
        r(c, "translate", function (a) {
            a.call(this);
            if (this.chart.polar && !this.preventPostTranslate)for (var a = this.points, b = a.length; b--;)this.toXY(a[b])
        });
        r(c, "getSegmentPath", function (a, b) {
            var c = this.points;
            if (this.chart.polar && this.options.connectEnds !== !1 &&
                b[b.length - 1] === c[c.length - 1] && c[0].y !== null)this.connectEnds = !0, b = [].concat(b, [c[0]]);
            return a.call(this, b)
        });
        r(c, "animate", b);
        r(c, "setTooltipPoints", function (a, b) {
            this.chart.polar && F(this.xAxis, {tooltipLen: 360});
            return a.call(this, b)
        });
        if (g.column)e = g.column.prototype, r(e, "animate", b), r(e, "translate", function (a) {
            var b = this.xAxis, c = this.yAxis.len, d = b.center, e = b.startAngleRad, i = this.chart.renderer, g, l;
            this.preventPostTranslate = !0;
            a.call(this);
            if (b.isRadial) {
                b = this.points;
                for (l = b.length; l--;)g = b[l],
                    a = g.barX + e, g.shapeType = "path", g.shapeArgs = {d: i.symbols.arc(d[0], d[1], c - g.plotY, null, {start: a, end: a + g.pointWidth, innerR: c - o(g.yBottom, c)})}, this.toXY(g), g.tooltipPos = [g.plotX, g.plotY], g.ttBelow = g.plotY > d[1]
            }
        }), r(e, "alignDataLabel", function (a, b, d, e, g, i) {
            if (this.chart.polar) {
                a = b.rectPlotX / Math.PI * 180;
                if (e.align === null)e.align = a > 20 && a < 160 ? "left" : a > 200 && a < 340 ? "right" : "center";
                if (e.verticalAlign === null)e.verticalAlign = a < 45 || a > 315 ? "bottom" : a > 135 && a < 225 ? "top" : "middle";
                c.alignDataLabel.call(this, b, d, e, g, i)
            } else a.call(this,
                b, d, e, g, i)
        });
        r(d, "getIndex", function (a, b) {
            var c, d = this.chart, e;
            d.polar ? (e = d.xAxis[0].center, c = b.chartX - e[0] - d.plotLeft, d = b.chartY - e[1] - d.plotTop, c = 180 - Math.round(Math.atan2(c, d) / Math.PI * 180)) : c = a.call(this, b);
            return c
        });
        r(d, "getCoordinates", function (a, b) {
            var c = this.chart, d = {xAxis: [], yAxis: []};
            c.polar ? s(c.axes, function (a) {
                var e = a.isXAxis, f = a.center, g = b.chartX - f[0] - c.plotLeft, f = b.chartY - f[1] - c.plotTop;
                d[e ? "xAxis" : "yAxis"].push({axis: a, value: a.translate(e ? Math.PI - Math.atan2(g, f) : Math.sqrt(Math.pow(g,
                    2) + Math.pow(f, 2)), !0)})
            }) : d = a.call(this, b);
            return d
        })
    })()
})(Highcharts);
